AJP - Heart and Circulatory Physiology, Vol 252, Issue 6 1147-H1158, Copyright © 1987 by American Physiological Society

ARTICLES

Renal pressor reflex: involvement of sympathetic vasoconstrictor mechanisms

J. E. Faber and D. R. Gettes

We examined whether vasopressin and/or sympathetic vasoconstrictor mechanisms constitute the efferent limb of an afferent renal nerve (ARN)-dependent renal pressor "reflex" produced by acute unilateral renal artery stenosis (RST). Rats that had received sinoaortic denervation (SAD) were implanted with right renal artery occluders and flow probes. After recovery, conscious rats received captopril. Acute RST increased arterial pressure (AP) by 25% and mesenteric and hindquarters resistances by 35 and 51%, respectively. Vasopressin receptor antagonism was without effect on the reflex. Ganglionic blockade (chlorisondamine or trimethaphan) abolished the reflex, as did alfaxalone/alfadolone or urethan-chloralose anesthesia. In an additional study, SAD animals were prepared with chronic T6 spinal cord transection. Increases in AP during RST were unaffected by spinal transection (27 +/- 4 mmHg). However, the increase in hindquarter resistance in the sham-transected animals (57 +/- 12%) was markedly attenuated (19 +/- 4%) in the spinal-transected group. The data suggest that in animals with depressed baroreflexes and renin-angiotensin system responsiveness, acute RST initiates an ARN-dependent pressor reflex with vasoconstrictor nerves comprising the efferent limb of the reflex. The reflex can be integrated at the spinal level and is highly sensitive to anesthesia.

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